Peptides with alternating amino acid configuration provide helical secondary structures that are especially known from the membrane channel and pore-forming gramicidin A. In analogy to this natural D,L-alternating pentadecapeptide, the potential of D,L-alternating peptides for membrane insertion is investigated using the model dodecamer peptide H-(Phe-Tyr)(5)-Trp-Trp-OH. This aromatic peptide is introduced as a novel pore-forming synthetic analogue of gramicidin A. It forms a well-organized homodimer similar to one of the gramicidin A transmembrane motifs. X-ray reflectivity measurements are performed on solid-supported peptide-lipid complexes to obtain information about the influence of the artificial dodecamer peptide on the bilayer parameters. In addition, Fourier-transform infrared (FTIR) and circular dichroism (CD) spectroscopic studies determine the conformational state of H-(Phe-Tyr)(5)-Trp-Trp-OH within the model membrane. Site-specific iodine labeling assists in determining the topology of the membrane-embedded peptide by pinpointing the position of the iodine label within the bilayers.
The crystal structure of H-(L-Tyr-D-Tyr)(4)-L-Lys-OH has been determined to 1.3 A resolution. The D,L-alternating peptide crystallizes in the tetragonal system, space group P4(3)2(1)2, with unit-cell parameters a = b = 27.99 (3), c = 78.93 (8) A. The crystals contain two molecules in the asymmetric unit that form a double-stranded right-handed antiparallel beta-helix. The structure has been solved by SIRAS using a crystal soaked in an iodide-containing solution for 1 min. The programs SHELXD and SHELXE were used to determine the iodide substructure and also the experimental electron-density map. Using the coordinates of known D,L-peptides deposited in the PDB, several attempts were made to solve the structure by molecular-replacement techniques. Although the backbone of the MR model selected shows great similarity and was used to trace the actual peptide structure in the map, it was not possible to obtain the correct solution before the experimental phases became available. The correct fragment orientations are easily determined, but the same does not apply to the translation search. Nevertheless, insights into fragment search and expansion were gained from the tests described in this paper. The correlation coefficient calculated with the resolution shell of data around 2.4 A, a distance corresponding to most 1-3 interatomic vectors, is a particularly good discriminator of correct orientations in the rotation search of small fragments.
Peptide nucleic acid (PNA) oligomers with linear topology are synthesised with histidines at the central positions in order to provide metal-ion coordination sites within the water shielded and non-polar environment of a nucleobase stack that emerges upon duplex formation. Variation of the linker length used for attachment of the nucleobases to the regular peptide backbone allows for fine tuning of the distances and coordination environment at the metal binding site. The effect of zinc and copper incorporation into the modified alanyl-PNA scaffolds on duplex stability was probed by temperature-dependent UV spectroscopy, and additional insight was gained from EPR spectroscopy and EXAFS. Whenever four histidines (two per oligomer strand) are available, addition of Zn 2+ significantly enhances double-strand stability, thus supporting coordination of Zn 2+ by the histidine-N and
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